Title :
Validation of Hybrid MinMax FuzzyNeuro Systems
Author :
BELDJEHEM, Mokhtar ; Cheriet, Mohamed
Author_Institution :
Lab. for Imagery, Vision, & Artificial Intelligence, Ecole de Technol. Superieure, Montreal, Que.
Abstract :
The validation and verification (V&V) of hybrid fuzzyneuro (HFN) or hybrid neurofuzzy (HNF) systems becomes of increasing concern as these systems are fielded and embedded in the every day operations of medical diagnosis, pattern recognition, fuzzy control and other industries particularly so when life-critical and environment-critical aspects are involved. We provide in this paper a V&V perspective on the nature of HFN components, an appropriate life-cycle, and applicable systematic formal testing approaches. We consider why HFN V&V may be both easier and harder than traditional means, and we conclude with a series of practical V&V guidelines. Validation of HFN systems brings us to a systematic study of value approximation performed during the inference phase. It is accepted that generalization capability is proportional to value approximation
Keywords :
approximation theory; fuzzy neural nets; fuzzy set theory; minimax techniques; generalization capability; hybrid minmax fuzzyneuro systems; hybrid neurofuzzy systems; systematic formal testing; value approximation; Appropriate technology; Artificial intelligence; Fuzzy control; Fuzzy sets; Fuzzy systems; Medical diagnosis; Minimax techniques; Neural networks; Pattern recognition; System testing; Approximately Equal Fuzzy Values; Generalization; Hybrid FuzzyNeuro System; Learning Algorithm; MinMax Compositional Rule; MinMax systems; Property of Approximation; Proximity Measure; Validation; Value approximation;
Conference_Titel :
Fuzzy Information Processing Society, 2006. NAFIPS 2006. Annual meeting of the North American
Conference_Location :
Montreal, Que.
Print_ISBN :
1-4244-0362-6
Electronic_ISBN :
1-4244-0363-4
DOI :
10.1109/NAFIPS.2006.365849
